Rejuvenation of aged oocyte through exposure to young follicular microenvironment

卵母细胞 体细胞 生物 卵泡期 男科 毛囊 卵泡 胚泡 细胞生物学 内分泌学 胚胎 遗传学 胚胎发生 医学 基因
作者
Haiyang Wang,Zhongwei Huang,Yaelim Lee,XinJie Song,Xingyu Shen,Chang Shu,Lik Hang Wu,Leroy Sivappiragasam Pakkiri,Poh Leong Lim,Xi Zhang,Chester Lee Drum,Jin Zhu,Rong Li
出处
期刊: [Cold Spring Harbor Laboratory]
被引量:5
标识
DOI:10.1101/2024.03.11.584343
摘要

Reproductive aging is a major cause of fertility decline, attributed to decreased oocyte quantity and competence. Follicular somatic cells play crucial roles in the growth and development of the oocyte by providing nutrients and regulatory factors. Here we investigated how oocyte quality is affected by its somatic cell environment by creating chimeric follicles, whereby an oocyte from one follicle was transplanted into and cultured within another follicle whose native oocyte was removed. Somatic cells within the chimeric follicle re-establish connections with the oocyte and support oocyte growth and maturation in a three-dimensional (3D) culture system. We show that young oocytes transplanted into aged follicles exhibited reduced meiotic maturation and developmental potential, whereas the young follicular environment significantly improved the rates of maturation, blastocyst formation and live birth of aged oocytes. Aged oocytes cultured within young follicles exhibited enhanced interaction with somatic cells, more youth-like transcriptome, remodelled metabolome, improved mitochondrial function, and enhanced fidelity of meiotic chromosome segregation. These findings provide the basis for a future follicular somatic cell-based therapy to treat age-associated female infertility.
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